The Future Role of Nanoparticles in Radiation Therapy DOI
Erdi Bilgiç, Nina Tunçel

Published: June 5, 2024

Radiation therapy, a widely used method in cancer treatment, employs high-energy radiation to destroy cells or inhibit their growth. However, traditional therapy has some limitations, particularly the potential damage healthy tissues and issue of tumor developing resistance radiation. At this point, nanoparticles emerge as significant innovation hold great providing targeted treatment research. According recent studies, can enhance effectiveness by making more sensitive (radiosensitization), allowing same results be achieved with lower doses. Additionally, due high surface area reactivity, serve drug delivery systems, enabling chemotherapy drugs reach site directly released controlled manner. This reduces systemic side effects increases efficacy. Nanoparticles imaging techniques help detect tumors precisely, thereby for better management process. In future, development smart multifunctional will facilitate widespread adoption personalized approaches bring about groundbreaking innovations therapy. These advancements make targeted, effective, safer, significantly improving quality life patients.

Language: Английский

Nanobots: The future of oral infection treatment DOI Open Access

Debtosh Patra

Published: Aug. 1, 2024

Oral diseases such as gingivitis and periodontitis represent signi cant global health challenges, a ecting substantial portion of the population.These conditions, driven by bacterial bio lms, can cause severe damage to tooth-supporting tissues, leading tooth loss impacting overall well-being.Traditional oral antibiotics face limitations, including broad-spectrum side e ects insu cient concentration at infection sites, often resulting in antimicrobial resistance.This mini-review explores potential nanobots for targeted drug delivery treating infections.Nanobots, ranging from 1 100 nanometers, navigate cavity, directly targeting lms releasing agents controlled manner.This approach enhances reduces systemic ects, minimizes resistance development.Various types nanobots, dentifrobots pharmacytes, are discussed their roles healthcare.Recent advancements demonstrate cacy vitro vivo, highlighting ability eradicate deliver drugs precisely.However, challenges biocompatibility, stability, regulatory hurdles must be addressed clinical application.Future directions include integrating multifunctional capabilities simultaneous treatment tissue repair, real-time monitoring through advanced imaging biosensing, personalized therapies tailored individual microbiomes.By overcoming these have revolutionize healthcare, o ering innovative solutions ectively manage treat infections, ultimately improving patient outcomes health.

Language: Английский

Citations

0
The Future Role of Nanoparticles in Radiation Therapy DOI
Erdi Bilgiç, Nina Tunçel

Published: June 5, 2024

Radiation therapy, a widely used method in cancer treatment, employs high-energy radiation to destroy cells or inhibit their growth. However, traditional therapy has some limitations, particularly the potential damage healthy tissues and issue of tumor developing resistance radiation. At this point, nanoparticles emerge as significant innovation hold great providing targeted treatment research. According recent studies, can enhance effectiveness by making more sensitive (radiosensitization), allowing same results be achieved with lower doses. Additionally, due high surface area reactivity, serve drug delivery systems, enabling chemotherapy drugs reach site directly released controlled manner. This reduces systemic side effects increases efficacy. Nanoparticles imaging techniques help detect tumors precisely, thereby for better management process. In future, development smart multifunctional will facilitate widespread adoption personalized approaches bring about groundbreaking innovations therapy. These advancements make targeted, effective, safer, significantly improving quality life patients.

Language: Английский

Citations

0